#!/bin/bash set -ex source tools.sh #need to put multiple cases here where decide this bundle to deploy by default use the odl bundle. # Below parameters are the default and we can according the release opnfvsdn=nosdn opnfvtype=noha openstack=ocata opnfvlab=default opnfvlabfile= opnfvrel=e opnfvfeature=none opnfvdistro=xenial opnfvarch=amd64 opnfvmodel=openstack virtinstall=0 maasinstall=0 jujuver=`juju --version` usage() { echo "Usage: $0 [-s|--sdn ] [-t|--type ] [-o|--openstack ] [-l|--lab ] [-f|--feature ] [-d|--distro ] [-a|--arch ] [-m|--model ] [-i|--virtinstall <0|1>] [--maasinstall <0|1>] [--labfile ] [-r|--release ]" 1>&2 exit 1; } #A string with command options options=$@ # An array with all the arguments arguments=($options) # Loop index index=0 for argument in $options do # Incrementing index index=`expr $index + 1` # The conditions case $argument in -h|--help ) usage; ;; -s|--sdn ) if ([ "arguments[index]" != "" ]); then opnfvsdn=${arguments[index]} fi; ;; -t|--type ) if ([ "arguments[index]" != "" ]); then opnfvtype=${arguments[index]} fi; ;; -o|--openstack ) if ([ "arguments[index]" != "" ]); then openstack=${arguments[index]} fi; ;; -l|--lab ) if ([ "arguments[index]" != "" ]); then opnfvlab=${arguments[index]} fi; ;; -r|--release ) if ([ "arguments[index]" != "" ]); then opnfvrel=${arguments[index]} fi; ;; -f|--feature ) if ([ "arguments[index]" != "" ]); then opnfvfeature=${arguments[index]} fi; ;; -d|--distro ) if ([ "arguments[index]" != "" ]); then opnfdistro=${arguments[index]} fi; ;; -a|--arch ) if ([ "arguments[index]" != "" ]); then opnfvarch=${arguments[index]} fi; ;; -m|--model ) if ([ "arguments[index]" != "" ]); then opnfvmodel=${arguments[index]} fi; ;; -i|--virtinstall ) if ([ "arguments[index]" != "" ]); then virtinstall=${arguments[index]} fi; ;; --maasinstall ) if ([ "arguments[index]" != "" ]); then maasinstall=${arguments[index]} fi; ;; --labfile ) if ([ "arguments[index]" != "" ]); then labfile=${arguments[index]} fi; ;; esac done #by default maas creates two VMs in case of three more VM needed. createresource() { # TODO: make sure this function run with the same parameters used in 03-maasdeploy.sh PROFILE=${PROFILE:-ubuntu} MAAS_IP=$(grep " ip_address" deployconfig.yaml | cut -d ':' -f 2 | sed -e 's/ //') API_SERVER="http://$MAAS_IP:5240/MAAS/api/2.0" API_KEY=`sudo maas-region apikey --username=ubuntu` maas login $PROFILE $API_SERVER $API_KEY for node in node3-control node4-control do node_id=$(maas $PROFILE machines read | \ jq -r ".[] | select(.hostname == \"$node\").system_id") if [[ -z "$node_id" ]]; then sudo virt-install --connect qemu:///system --name $node \ --ram 8192 --cpu host --vcpus 4 \ --disk size=120,format=qcow2,bus=virtio,cache=directsync,io=native,pool=default \ --network bridge=virbr0,model=virtio \ --network bridge=virbr0,model=virtio \ --boot network,hd,menu=off \ --noautoconsole --vnc --print-xml | tee _node.xml node_mac=$(grep "mac address" _node.xml | head -1 | cut -d "'" -f 2) sudo virsh -c qemu:///system define --file _node.xml rm -f _node.xml maas $PROFILE nodes new autodetect_nodegroup='yes' name=$node \ tags='control' hostname=$name power_type='virsh' \ mac_addresses=$node3controlmac \ power_parameters_power_address="qemu+ssh://$USER@192.168.122.1/system" \ architecture='amd64/generic' power_parameters_power_id='node3-control' node_id=$(maas $PROFILE machines read | \ jq -r ".[] | select(.hostname == \"$node\").system_id") fi if [[ -z "$node_id" ]]; then echo_error "Error: failed to create node $node ." exit 1 fi maas $PROFILE tag update-nodes control add=$node_id || true done } #copy the files and create extra resources needed for HA deployment # in case of default VM labs. deploy() { if [ ! -f ./labconfig.yaml ] && [ -e ~/joid_config/labconfig.yaml ]; then cp ~/joid_config/labconfig.yaml ./labconfig.yaml if [ ! -f ./deployconfig.yaml ] && [ -e ~/joid_config/deployconfig.yaml ]; then cp ~/joid_config/deployconfig.yaml ./deployconfig.yaml else python genDeploymentConfig.py -l labconfig.yaml > deployconfig.yaml fi else if [ -e ./labconfig.yaml ]; then if [ ! -f ./deployconfig.yaml ] && [ -e ~/joid_config/deployconfig.yaml ]; then cp ~/joid_config/deployconfig.yaml ./deployconfig.yaml else python genDeploymentConfig.py -l labconfig.yaml > deployconfig.yaml fi else echo_error "MAAS not deployed please deploy MAAS first." fi fi #create json file which is missing in case of new deployment after maas and git tree cloned freshly. python -c 'import sys, yaml, json; json.dump(yaml.load(sys.stdin), sys.stdout, indent=4)' < labconfig.yaml > labconfig.json python -c 'import sys, yaml, json; json.dump(yaml.load(sys.stdin), sys.stdout, indent=4)' < deployconfig.yaml > deployconfig.json # Install MAAS and expecting the labconfig.yaml at local directory. if [ "$maasinstall" -eq 1 ]; then ./clean.sh || true PROFILE=${PROFILE:-ubuntu} MAAS_IP=$(grep " ip_address" deployconfig.yaml | cut -d ':' -f 2 | sed -e 's/ //') API_SERVER="http://$MAAS_IP:5240/MAAS/api/2.0" API_KEY=`sudo maas-region apikey --username=ubuntu` maas login $PROFILE $API_SERVER $API_KEY # make sure there is no machine entry in maas for m in $(maas $PROFILE machines read | jq -r '.[].system_id') do maas $PROFILE machine delete $m || true done podno=$(maas $PROFILE pods read | jq -r ".[]".id) maas $PROFILE pod delete $podno || true ./cleanvm.sh || true if [ "$virtinstall" -eq 1 ]; then ./00-maasdeploy.sh virtual else if [ -z "$labfile" ]; then if [ ! -e ./labconfig.yaml ]; then echo_error "Labconfig file must be specified when using custom" else echo_warning "Labconfig was not specified, using ./labconfig.yaml instead" fi elif [ ! -e "$labfile" ]; then echo_warning "Labconfig not found locally, trying download" wget $labfile -t 3 -T 10 -O ./labconfig.yaml || true count=`wc -l labconfig.yaml | cut -d " " -f 1` if [ $count -lt 10 ]; then echo_error "Unable to download labconfig" exit 1 fi else echo_info "Using $labfile to setup deployment" cp $labfile ./labconfig.yaml fi ./00-maasdeploy.sh custom fi fi if [[ "$opnfvtype" = "ha" && "$opnfvlab" = "default" ]]; then createresource fi #bootstrap the node ./01-bootstrap.sh juju model-config default-series=$opnfvdistro enable-os-refresh-update=false enable-os-upgrade=false # case default deploy the opnfv platform: ./02-deploybundle.sh $opnfvtype $openstack $opnfvlab $opnfvsdn $opnfvfeature $opnfvdistro $opnfvmodel } #check whether charms are still executing the code even juju-deployer says installed. check_status() { waitstatus=$1 retval=0 timeoutiter=0 echo_info "Executing the relationships within charms..." while [ $retval -eq 0 ]; do if juju status | grep -q $waitstatus; then echo_info "Still waiting for $waitstatus units" if [ $timeoutiter -ge 180 ]; then echo_error 'Timed out' retval=1 else sleep 30 fi timeoutiter=$((timeoutiter+1)) else echo_info 'Done executing the relationships' retval=1 fi done if [[ "$opnfvmodel" = "openstack" ]]; then juju expose ceph-radosgw || true #juju ssh ceph/0 \ 'sudo radosgw-admin user create --uid="ubuntu" --display-name="Ubuntu Ceph"' fi echo_info "Deployment finishing..." } # In the case of a virtual deployment if [ "$virtinstall" -eq 1 ]; then ./clean.sh || true fi echo_info "Deployment started" deploy check_status executing echo_info "Deployment finished" echo_info "Configuring public access" # translate bundle.yaml to json python -c 'import sys, yaml, json; json.dump(yaml.load(sys.stdin), sys.stdout, indent=4)' < bundles.yaml > bundles.json public_service() { # get services list having a public interface srv_list=$(cat bundles.json | jq -r ".services | to_entries[] | {\"key\": .key, \"value\": .value[\"bindings\"]} | select (.value!=null) | select(.value[] | contains(\"public-api\"))".key) # get cnt list from service list cnt_list=$(for cnt in $srv_list; do juju status $cnt --format=json | jq -r ".machines[].containers | to_entries[]".key; done) # get public network gateway (supposing it is the first ip of the network) public_api_gw=$(cat labconfig.json | jq --raw-output ".opnfv.spaces[] | select(.type==\"public\")".gateway) admin_gw=$(cat labconfig.json | jq --raw-output ".opnfv.spaces[] | select(.type==\"admin\")".gateway) if ([ $admin_gw ] && [ $admin_gw != "null" ]); then # set default gateway to public api gateway for cnt in $cnt_list; do echo_info "Changing default gateway on $cnt" if ([ $public_api_gw ] && [ $public_api_gw != "null" ]); then juju ssh $cnt "sudo ip r d default && sudo ip r a default via $public_api_gw"; juju ssh $cnt "gw_dev=\$(ip r l | grep 'via $public_api_gw' | cut -d \ -f5) &&\ sudo cp /etc/network/interfaces /etc/network/interfaces.bak &&\ echo 'removing old default gateway' &&\ sudo perl -i -pe 's/^\ *gateway $admin_gw\n$//' /etc/network/interfaces &&\ sudo perl -i -pe \"s/iface \$gw_dev inet static/iface \$gw_dev inet static\\n gateway $public_api_gw/\" /etc/network/interfaces \ "; fi done fi } # Configuring deployment if ([ $opnfvmodel == "openstack" ]); then echo_info "Configuring OpenStack deployment" ./openstack.sh "$opnfvsdn" "$opnfvlab" "$opnfvdistro" "$openstack" || true # creating heat domain after pushing the public API into /etc/hosts if [[ "$jujuver" > "2" ]]; then status=`juju run-action heat/0 domain-setup` echo $status else status=`juju action do heat/0 domain-setup` echo $status fi sudo ../juju/get-cloud-images || true ../juju/joid-configure-openstack || true if grep -q 'openbaton' bundles.yaml; then juju add-relation openbaton keystone fi elif ([ $opnfvmodel == "kubernetes" ]); then echo_info "Configuring Kubernetes deployment" ./k8.sh fi # expose the juju gui-url to login into juju gui echo_info "Juju GUI can be accessed using the following URL and credentials:" juju gui --show-credentials --no-browser echo "Finished deployment and configuration"